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US Navy Super Hornet Teams with Manned-unmanned Teaming (MUM-T) in Flight Demos

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US Navy Super Hornet Teams with Manned-unmanned Teaming (MUM-T) in Flight Demos

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US Navy Super Hornet Teams with Manned-unmanned Teaming (MUM-T) in Flight Demos
US Navy Super Hornet Teams with Manned-unmanned Teaming (MUM-T) in Flight Demos

The F/A-18 and EA-18G Program Office (PMA-265) has conducted a successful series of manned-unmanned teaming (MUM-T) flight tests in which a Block III F/A-18 Super Hornet demonstrated command and control of three unmanned aerial vehicles (UAVs). The event took place at Naval Air Warfare Center Weapons Division, Pt. Mugu, California, and included four flight tests supported by Air Test and Evaluation Squadrons (VX) 23 and 31 and industry partners, Boeing and BAE Systems. During the flight tests, F/A-18 pilots entered commands into a third-party tablet instructing the UAVs to perform various maneuvers used in combat missions.

“The MUM-T concept explores interoperability between manned aircraft and unmanned autonomous systems to conduct missions. Such collaborative endeavors are imperative for resource and requirements planning to ensure the warfighter is equipped with best-in-class capabilities. MUM-T has the potential to transform tomorrow’s fleet into a more lethal, better-connected force. MUM-T will help us maintain the technological advantage and competitive edge against our adversaries,” said Capt. Jason Denney, program manager for PMA-265.

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“The Navy conducts exercises of this nature with industry partners to evaluate current and future capabilities. The comprehensive analysis of data captured during these events further informs development and refinement of technologies that could potentially be incorporated into Navy platforms. MUM-T could allow the Navy to extend the reach of its aircrew, while keeping them farther away from enemy fire. This capability could also enable pilots to delegate tasks or incorporate UAVs into missions such as patrolling airspace, fueling aircraft or serving as a communication relay node.,” said Dr. Michael Yu, PMA-265 science and technology, and experimentation/demo lead.

The tablet was connected to the Block III’s adjunct processor, known as the Distributed Targeting Processor – Networked (DTP-N), which transmitted these commands to the UAVs. The UAVs successfully carried out all commands given by the pilots. The F/A-18E/F Super Hornet serves as the backbone of carrier-based aviation power projection. PMA-265 continues to evaluate MUM-T and other innovative technology to keep the Super Hornet and EA-18G Growler strategically relevant in today’s dynamic combat environment.

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